SE521339C2 - Procedure for transferring a remote unit based on start-up times for administration extension information - Google Patents

Abstract

The present invention provides a method of handing-off a remote unit (113) from a first base station (101) to a second base station (102). The remote unit (113) communicates with the first base station (101) and establishes communication with a second base station (102). It is then determined, preferably by the remote unit (113), that the remote unit (113) should hand-off to the second base station (102). An overhead information start time is then determined. The remote unit (102) may determine when the overhead information will be broadcast by the second bast station (102), thereby establishing an overhead information start time. The overhead information start time is the time when overhead information will be transmitted from the second base station (102). The first base station (101) and the second base station (102) may be synchronized to transmit the overhead information at approximately the same time. In this manner, the remote unit (102) can determine the overhead information start time at the second base station (102) by monitoring the overhead information start time at the first base station (101). The remote unit (113) is then handed off to the second base station (102) based upon the overhead information start time.

Description

l5 20 25 30 35 521 339, .. v: 2 meters. In some cases, the broken device may need to receive such information several times. This can occur when a cell that has more than one channel is assigned to transport packet data activity. A user switched into that cell will first receive administration supplement information from the primary channel assigned packet data, and will then determine, based on the primary channel administration supplement information, the specific secondary packet data channel that it must use. The disconnected device will then receive additional management information from the secondary packet data channel before it begins handling on the secondary channel. It is important to minimize the time required to complete the handover, especially for data services where any data lost or delivered incorrectly during the handover must be retransmitted.

Consequently, there is a need for a method of handover of a disconnected device, which must receive additional administration information from the target cell, and of minimizing the time required to perform the handover to minimize the data size that is delayed or lost during the handover.

Brief Description of the Drawings Fig. 1 shows a wireless communication system in accordance with a preferred embodiment of the present invention.

Fig. 2 shows the handling of the start time of the administration supplement information of the communication system in Fig. 1 in accordance with the preferred embodiment of the present invention.

Fig. 3 shows the handling of the start time of the administration supplement information of the communication system of Fig. 1 in accordance with an alternative embodiment of the present invention, and Fig. 4 shows a flow chart of the operation of the communication system of Fig. 1 in accordance with the preferred embodiment of the present invention. DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT The present invention provides a method of switching an exploded unit from a first base station to a second base station. The disconnected device communicates with the first base station. The disconnected device connects to a second base station. It is then determined, in favor of the disconnected device, that the disconnected device should be switched to the other base station. An administration supplement information start time, which is the time when the administration supplement information will be transmitted from the other base station, is then determined. In a preferred embodiment, the broken-out unit determines when the administration supplement information will be circulated by the other base station, thereby determining an administration supplement information start time. In an alternative embodiment, the first base station and the second base station are synchronized to transmit additional administration information at approximately the same time. In this way, the disconnected unit can determine the administration supplement information start time at the second base station by monitoring the administration supplement information start time at the first base station. The disconnected unit is then switched to the other base station based on the administration supplement information start time.

In an alternative embodiment, the first base station and the second base station are synchronized to transmit the additional administration information at approximately the same time. In this way, the disconnected device can determine the start-up information start time at the second base station by monitoring the start-up time start time information at the first base station. The disconnected device is then switched to the other base station based on the administration supplement information start time.

The present invention can be better understood with reference to Figs. 1-4. In accordance with a preferred embodiment of the present invention, Fig. 1 shows a wireless communication system 100. The communication system 100 is advantageously a Personal Digital Cellular (PDC) system. , but can alternatively be any other digital cellular communication system, such as code division multiple access system (CDMA), Group Special Mobile (GSM) system, TDMA (time division multiple access) system, next generation CDMA, next generation CDMA protocol, including direct sequence spread spectrum or low frequency spread spectrum systems The communication system 100 includes a first base station 101, a second base station 102, a broken unit 113, a centralized base station controller (CBSC) 103, and a mobile switching system 103. mobile switching center (MSC) 104. The communication system 100 may also include additional older base stations, but for the sake of clarity only two are shown. The disconnected unit 113, the first base station 101 and the second base station 102 each comprise a logical unit capable of processing information, such as determinations of additional administration information start times and a need to switch over the disconnected unit 113.

In the preferred embodiment of the present invention, the base stations 101 and 102 are Motorola SC9600 base stations, the MSC 104 is a Motorola EMX2500 MSC and the CBSC 103 is a Motorola SG1128BF CBSC component. As shown, the disconnected unit 113 communicates with the base stations 101 and 102 via uplink communication signals 119 and the base stations 101 and 102 communicate with the disconnected unit 113 via downlink communication signals 116. In the preferred embodiment, the base stations 101 and 102 are suitably connected to CBSC 103, and CBSC 103 is suitably connected to MSC 104.

Preferred operation of the communication system 100 is as follows. The disconnected unit 113 accesses the first base station 101. This is usually followed by searching for the strongest signals and acquiring synchronization channels or information on additional administration channels around the end. of the base station 101. Simultaneously with the communication with the first base station 101, the disconnected unit 113 acquires a signal from the second base station 102. In a predetermined state, such as receiving a stronger signal from the second base station 102, it is decided to switch over the disconnected unit 113 to the second base station 102. This determination may be performed at the broken out unit 113, the first base station 101 or the second base station 102. The base stations 101 and 102 both transmit additional administration information.It is desirable to have the broken out unit 113 to switch to the second base station 102 in such a way that the time before the disconnected unit 113 can receive the additional administration information from the base station 102 is minimized. When the base station 102 has more than one channel assigned to the service used by the disconnected unit 113, the disconnected unit 113 will receive the administration supplement information from the primary channel providing the service in the base station 102. Based on the administration supplement information from the primary channel, the disconnected unit 113 to switch to the assigned second channel and obtain the additional administration information from the second channel.

Two embodiments of the present invention are presented. In a preferred embodiment shown in Fig. 2, the base stations 101 and 102 are synchronized to transmit additional administration information at approximately the same time. The administration supplement information is thereby time-adapted and provides an administration supplement information start time at the base stations 101 and 102. The synchronization of the administration supplement information transmission start time is performed via a central clock, such as a global positioning system (Global 10 15 25 25 35 521 339 6 Positioning System). the base stations.

In an alternative embodiment shown in Fig. 3, the disconnected unit 113 determines when the additional administration information is to be transmitted from the second base station 102. The base stations 101 and 102 are unsynchronized. However, each base station knows when the neighboring stations broadcast their additional administration information.

The supplementary administration information here refers to information relating to the communication system. The additional administration information is circulated to all broken devices in that system's service area.

However, the administration supplement information will vary from one service area to another within the communication system because the administration supplement information provides data specific to that service area. cell page ID, Examples of such information are system ID, paging zone ID and neighboring cell information. For packet data transmission, this additional administration information must include packet zone ID for registration purposes and information about the channels in the neighboring cells. This allows the disconnected device to reduce the time it takes to acquire a new channel from another cell.

The disconnected unit 113 stops at the first base station 101 until some time before the transmission time of the administration supplement information at the second base station 102. The disconnected unit 113 switches in time to receive the administration supplement information from the second base station 102. In this way the time it takes for the broken-out unit 113 to obtain the administration supplement information is minimized_ The administration supplement information together with the cell pages and the administration supplement information on primary and secondary channels within a cell page fluctuate by a predetermined time. The magnitude of the time at which the administration supplement information data oscillates between the primary and secondary channels is equal to the sum of the time to read the current administration supplement information and the time to obtain the second channel through the disconnected unit 113. Other time delays can be used by the system depending on the switching method used by the specific system.

The following is a description in accordance with the preferred embodiment of how a broken unit moves to the primary packet channel of the target page, reads the administration add-on information and moves on to a second packet channel which will be used for user data transmission. As shown in Fig. 4, the broken unit 401 determines that it needs to be switched over. The disconnected device selects an appropriate time to move from the first base station to the second base station. The broken-out unit will advantageously move from the current channel of the first base station to the primary packet channel of the second base station. Since the administration supplement information on the first base station and the second base station is wavering by a known time magnitude, 402 the disconnected unit initiates the handover so that the disconnected unit acquires and occurs on the primary packet channel of the second base station when the administration supplement information on the second base station the base station is to be transmitted. This is done by determining a transition time (tacq) for the broken-out unit, the transition time being the time it takes for the broken-out unit to move from the first base station to the second base station. Thus, if the additional administration information on the milk channel is available at time TO2, the broken unit initiates handover at tacq seconds earlier than T02. The broken unit 113 reads and processes the 403 administration supplement information. The broken unit 404 then determines whether to stay on the primary packet channel or whether to move it to the secondary packet channel. If allowed, 405 the disconnected unit receives data services on the primary packet channel. However, the disconnected device may determine that it needs to obtain a secondary packet channel in order to use the packet data service. The primary channel administration supplement information start time of the primary channel is transmitted at a first time. The secondary channel administration supplement information start time of the secondary channel is transmitted at a second time. The disconnected device receives 406 the secondary packet channel. The broken device transitions from the primary channel to the secondary channel based on the additional administration information transmitted through the primary channel. The secondary packet channel provides 407 additional administration information to the disconnected device immediately upon arrival.

From the above examples, it is obvious to the person skilled in the art to understand that various changes in form and detail can be made therefrom without departing from the inventive concept. A system may require an outbound device to read the administration supplement information from a channel that differs from the primary packet channel first. The broken device will be directed to a packet channel with this information.

Thus, the present invention provides a method of switching an exploded unit from a first base station to a second base station. By switching over the broken unit and determining the start time of the additional administration information at the second base station, the broken unit can be switched to the other base station in time to receive the start of transmission of the next additional administrative information. In this way, the disconnected unit is effectively switched to the other base station. The disconnected unit therefore switches in an efficient manner so that the receipt of the additional administration information at the other base station takes place without delay. Furthermore, the present invention maintains the size of the administration supplement information transmitted to a minimum of the channels circulating the administration supplement information. The present invention also enables network configuration changes that result in additional administrative information changes that are delivered to the disconnected device in a timed manner.

The present invention can be used for any channel shared by the exploded unit such as control or access channels. Although the present invention has been described with respect to a PDC (personal digital cellular) system, the present invention can also be used in any wireless system that performs autonomous switching and reads additional management information from more than one channel during the switching process. For example, the present invention can be used in CDMA (code division multiple access) systems, TDMA (time division multiple access) systems, CDPD (Cellular digital packet data) systems, GSM (Group Special Mobile) systems, next-generation CDMA systems and next-generation CDMA protocols, including direct-frequency spreading spectrum or low-frequency hop-spreading spectrum systems. Although this invention has been described in terms of certain examples, it is not intended to be limited by the above description but only to what is described in the claims which follow.

Claims (4)

10 15 20 25 30 521 359 10 PATENT REQUIREMENTS A method of switching a broken unit from a first base station to a second base station, the method comprising the broken unit communicating with the first base station, determining a need to switch the broken unit to the second base station, determining an administration additional information start time , wherein the administration supplement information start time is when the administration supplement information will be transmitted from the second base station, and determining a handover time, the transition time being the time it takes for the remote unit to transfer from the first base station to the second base station, the determination being made by the disconnected unit , and to switch the disconnected device to the other base station based on the administration additional information start time_ The method of switching a broken unit according to claim 1, wherein the step of switching the broken unit further comprises switching the broken unit to the second base station based on the transition time. A method of handovering an exploded unit according to claim 1, wherein the step of determining a need for the handover of the exploded unit comprises determining the need of the exploded unit. A method of handover a broken unit according to claim 1, wherein the step of determining a first administration style egg information start time comprises 70543 new claims; 2003-02-18 521 339 ll determination of an administration supplement information start time of the broken out unit. 70543 new requirements; 2003-02-18